Comparative Analysis of Aggregation of β- and γ-Synucleins in Vertebrates.

This study explores the structural transitions and aggregation behaviour of recombinant β- and γ-synucleins from five vertebrate species-, , , and -using thioflavin T fluorescence and circular dichroism spectroscopy, with and without copper ions. Although synucleins are well-conserved proteins among vertebrates, species-specific differences in amino acid composition and predicted secondary structures were observed, particularly within β-strand-forming regions. During a six-day incubation, human β-synuclein exhibited a time-dependent increase in β-sheet-rich structures, while non-mammalian β-synucleins showed limited variation. In contrast, γ-synucleins from all species displayed greater aggregation propensity, with variations in kinetics and magnitude. The presence of copper reduced the rate of aggregation in human β-synuclein, likely due to high-affinity metal-binding sites, whereas γ-synuclein aggregation was only mildly affected. Notably, copper enhanced late-phase aggregation in β-synuclein. These findings suggest that sequence divergence among synuclein isoforms may underlie species-specific aggregation mechanisms and metal sensitivity. The differential aggregation behaviour observed across taxa may reflect evolutionary adaptations in synuclein function and folding propensity, with implications for understanding the molecular basis of synucleinopathies and their potential modulation by metal ions.